DE602005005844T2 - MOVABLE SUPPORT STRUCTURE - Google Patents

Description

The The invention relates to a movable support structure for placement on a floor.

Such a support structure is used, for example, as seabed reaction mass, when a geotechnical investigation is carried out from a ship. The support structure will also known as the Seabed Frame (SBF) and is initially used as Reaction mass for the force required to attach a probe or sample tube to drift into the ground. Furthermore has the support structure various other functions such as drill guide, as carrier for measuring, Operating and control technology for the geotechnical investigation. The equipment of the support structure depends on the investigation that carried out shall be. Because the seabed is generally not flat or is horizontal, it is important that the support structure at a slope can be used. If this is not possible, or only to a lesser extent, is the applicability of the support structure restricted what undesirable is.

support structures for the Operation on a slope already exists. These constructions are usually with a fixed hinge point (cardan-like) between two components realized, one of which adapt to the angle of inclination got to; you can Furthermore with an additional Device equipped which, for example, is actively controlled by means of hydraulic cylinders becomes. This often happens after weaning with the help of measurements executed. While Positioning, also known as landing, These constructions are claimed by internal friction, the The result is that the parts are permanently connected (Kardan or joint) so that they are either prevented from taking the right angle or require active control. After weaning will be the components often not attached to ver rotations to each other to prevent, with the result that relatively small external forces one instability the support structure can cause.

• – Schwierigkeiten beim Führen des Bohrgestänges
• – Schwierigkeiten beim Einführen des Bohrgestänges in die Konstruktion aufgrund dessen, dass das Bohrgestänge und der obere Abschnitt der Konstruktion, in die es einzuführen ist, in verschiedenen Winkeln ausgerichtet sind
• – Probleme mit den weiteren Mitteln, die von oder aus der Stützkonstruktion in den Grund getrieben oder eingeführt werden und die aufgrund einer kleinen Bewegung oder aufgrund einer großen Winkeldifferenz nicht mehr in der Lage sind, ihre Aufgabe zu erfüllen, oder beschädigt werden.

The inability to adequately balance the inclination can have the following effects:

• - Difficulty in guiding the drill pipe
• Difficulty in inserting the drill string into the structure due to the drill pipe and the upper portion of the structure into which it is to be inserted being oriented at different angles
• Problems with the further means driven or introduced into or from the supporting structure, which due to a small movement or due to a large angular difference are no longer able to fulfill their task or are damaged.

One An example of an existing construction is that of the international one Deep Sea Drilling Program (ODP), also known as "Hard Rock Base "(HRB) becomes. A description can be found on the ODP website. The construction based on a universal joint. In addition to the disadvantages listed above such a construction the maximum allowed Slope angle of the ground 20 °.

GB-A-1 503 398 discloses a support structure for an underwater platform for a wellbore, wherein a guide frame lowers the drill stand to a temporary base. The drill stand rests on the temporary base by means of a ball joint consisting of spherical formations which fit into each other and define a support surface. With such storage, the size of the support surface changes with the angle of the inclination. As the angle of inclination increases, the support surface becomes smaller. This limits the allowable inclination angle. In practice, the maximum allowable inclination angle in a construction such as in GB 1503398 described smaller than 20 °. Likewise, an increased pitch angle makes such support more asymmetrical. Thus, the stability decreases with increasing inclination angle.

task the invention is to provide a movable support structure, on a sloped surface reliable works, which has a simple design and which has the disadvantages the solutions of the prior art while having the advantages hereafter explained become.

These Task is with a support structure complied with claim 1.

The Lower part has a first contact surface and the upper part has a second contact surface, the touching each other in the second position, and at least one Section of either the first touch surface or the second contact surface is spherical. At least a section of the touch surface with the spherical one Touch surface is conical. This is advantageous because in the second position a cone and a sphere a circular contact line form in any common angle, allowing the support through Friction is stabilized, which provides a stable position in all directions.

If a spherical and a conical contact body cooperate, there is the additional advantage that during the movement of the first position to the second position, that is, when the upper part is placed on the lower part, the contact surfaces have a centering effect on each other. If the upper part is not in exactly central alignment with the lower part, the forces that are not symmetrical at the first contact will guide the upper part to the center of the lower contact surface.

To For this purpose, it is preferable that the at least partially conical Touch surface with an opening is provided whose diameter is one and a half times the diameter the contact line is.

One larger diameter the contact line elevated the support stability between the upper part and the lower part. The diameter of the contact line is Therefore, preferably at least one third of the widest dimension of the top.

The Lower part is able to be independent of the surface of the soil to adjust its inclination. The upper part can then on the lower part be placed that maintain a specific desired orientation becomes. This can be, for example, the horizontal orientation of the platform which is an element of the shell. Because of its own weight of the upper part sets the friction between the components of the lower part and the top part, which is during of supporting in the second position, a secure connection between the two parts ready. As soon as the construction is in position, no further measurements are required accomplished or the platform with the help of controls and adjustments horizontally being held.

In the second position contains the upper part and the lower part the movable according to the invention support structure in linear contact and the contact line forms at least a section of a closed line, so that the upper part by the lower part on all sides, d. H. in all directions, supported becomes. This ensures that the upper part is stably supported by the lower part, itself at different angles of inclination. In addition, the stability is hardly due influenced the angle of inclination, so that much larger angles of inclination are allowed.

If in a preferred embodiment the closed line is a circle, becomes a universal on all sides symmetrical and stable support achieved.

To Wish it is possible additional connecting means between the base and the top, such as Clamps, traction cables, drawbars and the same.

Of the Section of the cone can have many different shapes. however the section is advantageous in terms of manufacturing cost triangular.

Around the sliding of the supporting structure To prevent it, it is advantageous, the lower part with anchoring means to equip for anchoring in the ground.

ever according to the soil conditions can the anchoring means to be provided plates or mandrels or Combinations of these are sunk into the ground.

Around too deep sinking of the support structure Even to prevent the ground, it can with a base plate be equipped, on which it rests on the ground.

One significant advantage of the support structure according to the invention is that they are for different inclinations and different terrains is suitable.

is For example, the top can be raised so it can be raised be placed and removed that way elsewhere can be placed.

The support structure is very easy to place when the bottom and the top connected by a movable connection. These For example, a mobile connection can consist of hawsers. The Lower part is then hung on the upper part, so to speak. During the lowering are the Parts connected by the hawsers so that they are separated and are movable to each other. Since the lower part hangs freely, without to be influenced by the shell, it is free to change the angle of inclination adapt. After the lower part is set down on the ground, reached the upper part after further lowering the lower part in the same orientation, it in the suspended Condition held, without being influenced by the lower part. During the Lowering reserves The top part of a horizontal orientation, so that it is a stable horizontal Plane generated without being influenced by the slope of the soil.

In a particular embodiment, the connection is formed by an endless lock, which runs over rollers, at least one of which is fastened to the lower part and at least one is fastened to the upper part. This keeps the cable constantly energized. In the case of separate cables, the voltage in one of the cables may drop as a result of the base already finding a support point during positioning. If the voltage drops in one or two cables, it may the top tend slightly due to the tension remaining in the remaining cables. Depending on the weight ratio between the upper part and the lower part, this inclination can be controlled and kept to a minimum. Tilting does not have to be a problem as it is possible to provide sufficient clearance between the parts. Once the base is fully supported by the floor, the tension in all cables drops and the top tilts back to its original orientation. However, this requires enough space and sufficiently long cables. In the case of an endless cable, the top does not tilt and the construction can thus be made more compact. Instead of placing the upper part on the lower part, it is possible in this embodiment of the invention to bias the Hebezugtrossen and thus the endless cable. This provides a moveable connection that may be advantageous in certain circumstances, as it avoids, for example, that during drilling operations, a transition from the underwater drill pipe to the drill pipe in the frame proves to be too stiff. In this way, the upper part is able to regulate according to the position of the drill string, which is influenced for example by the flow in the water. Regardless of the conditions, if the rollers are self-adjusting, the cable runs smoothly over the rollers.

Even though by no means limited to the invention is very good for guiding a drill string suitable if the support structure in operation with an opening equipped, which makes it possible a pipe such as a drill pipe is passed through.

The Invention can be in the foreshore used, but is for example particularly suitable for laying out on the seabed.

in the The invention will be further characterized by the description of a preferred embodiment and with the attached Drawings explained. Show it:

1 - 3 the design of a support structure according to a first embodiment of the invention,

4 - 6 the design of a support structure according to a second embodiment of the invention,

7 a third embodiment of the invention,

8th - 10 the design of a support structure according to a fourth embodiment of the invention,

11 - 13 show the laying of a support structure according to a fifth embodiment of the invention and

14 two embodiments of anchoring means for anchoring the base in the ground.

1 shows a support structure in an embodiment of the invention, the lower part 1 includes that with a ball element 3 equipped, and a shell 2 that with a cone element 4 Is provided. The lower part 1 and the top 2 are by means of hawsers 7 flexibly connected. In 1 is the support structure as to hoist ropes 6 over a sloping ground 5 shown hanging. The lower part is equipped with a base plate for resting on the floor. The base plate is also with anchoring means 8th fitted.

In 2 is opposite the entire support structure 1 lowered and the lower part 1 is on the ground 5 arrived and its base plate 19 resting on the ground 5 , The top 2 still hangs over the lower part 1 , The lower part 1 is by anchoring means 8th in the ground 5 sunk in the ground 5 anchored. The lower part 1 is opposite the top 2 tilted and changed the conditions of the soil 5 customized.

In 3 is the shell 2 on the lower part 1 lowered. The top 2 resting with his cone 4 on the ball 3 of the lower part 1 , The between the cone 4 and the ball 3 due to the weight of the shell 2 occurring friction ensures the stable positioning of the upper part 2 , The ball element 3 of the lower part 1 and the cone element 4 of the top 2 ensure together that the alignment of the shell 2 during the impact on the lower part 1 remains unchanged. This unchanged orientation is due to the slope of the ground 5 totally independent.

In 4 - 6 a support structure is shown in a second embodiment of the invention, wherein the upper part 2 with a ball element 3 equipped with a cone element 4 of the lower part 1 interacts.

In the in 1 - 6 illustrated embodiments consist of the cooperating elements of the lower part 1 and the shell 2 from a ball element 3 and a cone element 4 , However, the invention is not limited to parts having these shapes.

7 shows the support structure in a third embodiment of the invention, wherein the movable connection between the lower part 1 and the top part 2 the support structure of a single endless walkway 11 is formed, which has self-regulating roles 10 running.

In 8th - 10 a support structure is shown in a fourth embodiment of the invention, wherein the upper part 2 with a pipe 9 is equipped, which has at its bottom side a flange on which in 8th the lower part 1 rests with a touch surface. After settling the base 1 on the ground 5 ( 9 ) is the shell 2 free to further sink and the flange of the pipe 9 detached from the contact surface of the lower part 1 , The top 2 is now able to continue to sink, while maintaining its orientation, until the cone element 4 of the top 2 on the ball element 3 of the lower part 1 seated.

In 11 - 13 a fifth embodiment of a support structure is shown, which in 8th - 10 similar to the fourth embodiment shown. In this case, however, the pipe is by means of a clamping cylinder 12 at the top 2 clamped, causing the top 2 released from the connection and from the lower part 1 can be removed while the lower part 1 on the ground 5 remains. This allows, for example, the use of the shell 2 elsewhere and if desired his repatriation at a later date.

14 Finally, there are two embodiments of means 8th for anchoring in the ground 5 at the base plate 19 are thorns 13 as well as a plate 14 appropriate. Depending on the soil conditions, it may be beneficial to mandrels 13 or a plate 14 or a combination of these anchoring agents 8th to use. For the purpose of anchoring the mandrels 13 as well as the plate 14 or the plates 14 completely or partially in the soil 5 sunk.

Claims (17)

Movable support structure for placing on a floor ( 5 ), which is a lower part ( 1 ) and a top ( 2 ), which with the lower part ( 1 ), wherein the lower part ( 1 ) is designed to be on the ground ( 5 ) and to assume a position that depends on the condition of the soil ( 5 ), and the top ( 2 ) has a first and a second position, wherein in the first position the upper part ( 2 ) freely above the lower part ( 1 ) and in the second position the upper part ( 2 ) on the lower part ( 1 ) while maintaining a fixed immovable position, characterized in that the lower part ( 1 ) and the top ( 2 ) in the second position a first and a second contact surface ( 3 . 4 ), wherein the first surface ( 4 ) is at least partially conical in shape and the second surface ( 3 ) is at least partially spherically shaped, so that they cause in the second position, the lower part ( 1 ) and the top ( 2 ) are in linear contact and thereby form a contact line which forms at least a portion of an endless line. Mobile support structure according to claim 1, characterized in that the closed line a circle is. Mobile support structure according to claim 1 or 2, characterized in that the at least partly conical contact surface with an opening equipped, whose diameter is at least one and a half times the diameter of the contact line is. Mobile support structure according to one of the claims 1 to 3, characterized in that the diameter of the contact line at least one third of the widest dimension of the upper part is. support structure according to one of the claims 1 to 4, characterized in that the area of the conical Contact surface triangular is. Support structure according to one of claims 1 to 5, characterized in that the upper part ( 2 ) and the lower part ( 1 ) with connecting means for connecting the lower part ( 1 ) and the upper part ( 2 ) are equipped. Support structure according to one of claims 1 to 6, characterized in that the lower part ( 1 ) with anchoring means ( 8th ) for anchoring the lower part in the ground ( 5 ) Is provided. Support structure according to claim 7, characterized in that the anchoring means ( 8th ) Comprise elements of the group consisting of at least one plate ( 14 ), at least one thorn ( 13 ) and combinations thereof, these elements being at least partially in the ground during use ( 5 ) are sunk. Support structure according to one of claims 1 to 8, characterized in that the lower part ( 1 ) with a plate ( 19 ) on which the construction rests on the ground. Support structure according to one of claims 1 to 9, characterized in that the upper part ( 2 ) is liftable. Support structure according to one of claims 1 to 10, characterized in that the lower part ( 1 ) and the top ( 2 ) by a movable connection ( 7 . 10 . 11 ) are interconnected. Support structure according to claim 11, characterized in that the movable connection of hawsers ( 7 ) consists. A support structure according to claim 12, characterized in that the connection of a Endlostrosse ( 11 ) formed over a first roll ( 10 ) at the lower part ( 1 ), and a second roll ( 10 ) at the top ( 2 ) is attached, running. Support structure according to claim 13, characterized in that the first roller ( 10 ) and the second role ( 10 ) are self-regulating. Support structure according to one of claims 11 to 14, characterized in that the connection is a pipe ( 9 ) located either at the lower part ( 1 ) or on the upper part ( 2 ), whereby the pipe ( 9 ) is fitted with a flange and on the other part, either the lower part ( 1 ) or the upper part ( 2 ), is provided with a contact surface which cooperates with the flange in a first position. support structure according to one of claims 1 to 15, characterized in that the support structure is equipped with an opening is that makes it possible a pipe, such as a drill pipe, to lead through. support structure according to one of claims 1 to 16, characterized in that the support structure for underwater operation equipped is.